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用选择性可溶性鸟苷酸环化酶抑制剂研究大鼠小脑内NO-cGMP神经通路 被引量:3

Nitric oxide-cyclic GMP signalling pathway studied with a selective inhibitor of soluble guanylyl cyclase in rat cerebellum
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摘要 应用清醒大鼠脑微透析技术以选择性可溶性鸟苷酸环化酶抑制剂 1 H- [1 ,2 ,4]口恶二唑 [4,3- a]喹喔啉 - 1 -酮 ( ODQ)为工具药研究大鼠小脑 NO-c GMP神经通路 .小脑内局部灌流 ODQ( 5,1 0 ,50 ,1 0 0 μmol· L-1,5μL·min-1)可剂量依赖性降低细胞外基础 c GMP水平 ,最大可使细胞外基础 c GMP水平降低 80 % .ODQ1 0 0 μmol· L-1可完全对抗N -甲基 - D-天冬氨酸 ( NMDA,2 0 0μmol· L-1)或α-氨基羟甲基异口恶唑丙酸 ( AMPA,1 0 0μmol· L-1)引起的细胞外 c GMP水平增加 ,ODQ也可抑制 NO供体 S-亚硝基 - N-乙酰青霉胺 ( SNAP,1 .5mmol·L-1)引起的细胞外 c GMP水平增加 .说明在基础条件下小脑内 c GMP80 %来源于可溶性鸟苷酸环化酶激活 .进一步证明了 NO通过激活可溶性鸟苷酸环化酶使 c GMP增加 . The nitric oxide(NO) cGMP signalling pathway in rat cerebellum was studied with a selective inhibitor of soluble guanylyl cyclase, 1H [1,2,4]oxadiazolo[4,3 a]quinoxalin 1 one (ODQ), and microdialysis. Intracerebellar infusion of ODQ (5, 10, 50, 100 μmol·L -1 , 5 μL·min -1 ) inhibited, in a concentration dependent manner, the basal extracellular level of cGMP. The maximal inhibition was 80%. ODQ 100 μmol·L -1 completely inhibited the cGMP elevation evoked by N methyl D aspartic acid (NMDA) or by α amino 3 hydroxy 5 methyl 4 isoxazolepropionic acid (AMPA). ODQ Also prevented cGMP elevation induced by NO generator S nitroso N acetylpenicillamine (SNAP, 1.5 mmol·L -1 ). The results suggest that under basal condition, about 80% of the cGMP in the cerebellum seem to originate from the soluble guanylyl cyclase. The results further suggest that NO elicit cGMP accumulation in target cells by stimulating soluble guanylyl cyclase.
作者 金英 刘婉珠 赵艳杰
机构地区 锦州医学院药理学教研室
出处 《中国药理学与毒理学杂志》 CSCD 北大核心 2000年第4期278-282,共5页 Chinese Journal of Pharmacology and Toxicology
关键词 NO-CGMP 神经通路 可溶性鸟苷酸 环化酶抑制剂 H [1 2 4]oxadiazolo[4 3 a]quinoxalin 1 one cyclic GMP cerebellum receptors amino acid
分类号 R96 [医药卫生—药理学]
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参考文献2

  • 1钟慈声,一氧化氮的生物医学,1997年,46页
  • 2Luo D,J Neurosci,1994年,14卷,1期,263页

同被引文献13

  • 1Garthwaite J.Glutamate, nitric oxide and cell-cell signalling in the nervous system. Trends Neurosci 1991;14(2):60-7
  • 2Vallebuona F,Raiteri M.Monitoring of cyclic GMP during cere-bellar microdialysis in freely-moving rats as an index of nitric oxide syn-thase activity.Neuroscience 1993;57(3):577-85
  • 3Trabace L, Kendrick KM.Nitric oxide can differentially modulate striatal neurotransmitter concentrations via soluble guanylate cyclase and peroxynitrite formation. J Neurochem 2000;75(4):1664-74
  • 4Nakane M, Arai K, Saheki S, et al.Molecular cloning and expres-sion of cDNAs coding for soluble guanylate cyclase from rat lung.J Biol Chem 1990;265(28):16841-5
  • 5Garthwaite J, Southam E, Boulton CL, et al.Potent and selective inhibition of nitric oxide-sensitive guanylyl cyclase by 1H-[1,2,4]oxadiazolo [4,3-a]quinoxalin- 1 -one.Mol Pharmacol 1995;48(2):184-8
  • 6East SJ, Parry-Jones A, Brotchie JM.Ionotropic glutamate receptors and nitric oxide synthesis in the rat striatum. Neuroreport 1996;8(1):71-5
  • 7Fedele E, Raiteri M.Desensitization of AMPA receptors and AM-PA-NMDA receptor interaction:an in vivo cyclic GMP microdialysis study in rat cerebellum.Br J Pharmacol 1996;117(6):1133-8
  • 8Garthwaite J. Glutamate, nitric oxide and cell- cell signalling in the nervous system. Trends Neurosci, 1991, 14 (2): 60~67.
  • 9Vallebuona F, Raiteri M. Monitoring of cyclic GMP during cerebellar microdialysis in freely moving rats as an index of nitric oxide synthase activity. Neuroscience, 1993, 57 (3): 577~585.
  • 10Trabace L., Kendrick KM. Nitric oxide can differentially modulate striatal neurotrasmitter concentrations via soluble guanylate cyclase and peroxynitrite formation. J. Neurochem,2000, 75 (4): 1664~1674.

引证文献3

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中国药理学与毒理学杂志
2000年 第4期

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